// L2TPNS Global Stuff // $Id: l2tpns.h,v 1.121 2009-12-08 14:49:28 bodea Exp $ #ifndef __L2TPNS_H__ #define __L2TPNS_H__ #include #include #include #include #include #include #include #include #include #define VERSION "2.2.1" // Limits #define MAXTUNNEL 500 // could be up to 65535 #define MAXBUNDLE 300 // could be up to 65535 #define MAXBUNDLESES 12 // Maximum number of member links in bundle #define MAXADDRESS 20 // Maximum length for the Endpoint Discrminiator address #define MAXSESSION 60000 // could be up to 65535 #define MAXTBFS 6000 // Maximum token bucket filters. Might need up to 2 * session. #define RADIUS_SHIFT 6 #define RADIUS_FDS (1 << RADIUS_SHIFT) #define RADIUS_MASK ((1 << RADIUS_SHIFT) - 1) #define MAXRADIUS (1 << (8 + RADIUS_SHIFT)) #define T_UNDEF (0xffff) // A tunnel ID that won't ever be used. Mark session as undefined. #define T_FREE (0) // A tunnel ID that won't ever be used. Mark session as free. #define MAXCONTROL 1000 // max length control message we ever send... #define MINMTU 576 // minimum recommended MTU (rfc1063) #define MAXMTU 2600 // arbitrary maximum MTU #define PPPoE_MRU 1492 // maximum PPPoE MRU (rfc2516: 1500 less PPPoE header (6) and PPP protocol ID (2)) #define MAXETHER (MAXMTU+18) // max packet we try sending to tun #define MAXTEL 96 // telephone number #define MAXHOSTNAME 256 // hostname #define MAXUSER 128 // username #define MAXPASS 128 // password #define MAXCLASS 128 // radius class attribute size #define MAXPLUGINS 20 // maximum number of plugins to load #define MAXRADSERVER 10 // max radius servers #define MAXROUTE 10 // max static routes per session #define MAXIPPOOL 131072 // max number of ip addresses in pool #define RINGBUFFER_SIZE 10000 // Number of ringbuffer entries to allocate #define MAX_LOG_LENGTH 512 // Maximum size of log message #define ECHO_TIMEOUT 10 // Time between last packet sent and LCP ECHO generation #define IDLE_ECHO_TIMEOUT 240 // Time between last packet seen and session shutdown #define BUSY_WAIT_TIME 3000 // 5 minutes in 1/10th seconds to wait for radius to cleanup on shutdown #define MP_BEGIN 0x80 // This value is used when (b)egin bit is set in MP header #define MP_END 0x40 // This value is used when (e)nd bit is set in MP header #define MP_BOTH_BITS 0xC0 // This value is used when both bits (begin and end) are set in MP header #define MINFRAGLEN 64 // Minumum fragment length #define MAXFRAGLEN 1496 // Maximum length for Multilink fragment (The multilink may contain only one link) #define MAXFRAGNUM 512 // Maximum number of Multilink fragment in a bundle (must be in the form of 2^X) // it's not expected to have a space for more than 10 unassembled packets = 10 * MAXBUNDLESES #define MAXFRAGNUM_MASK 511 // Must be equal to MAXFRAGNUM-1 // Constants #ifndef ETCDIR #define ETCDIR "/etc/l2tpns" #endif #ifndef LIBDIR #define LIBDIR "/usr/lib/l2tpns" #endif #ifndef PLUGINDIR #define PLUGINDIR LIBDIR // Plugins #endif #ifndef PLUGINCONF #define PLUGINCONF ETCDIR // Plugin config dir #endif #ifndef FLASHDIR #define FLASHDIR ETCDIR #endif #define TUNDEVICE "/dev/net/tun" #define RANDOMDEVICE "/dev/urandom" // default, not as secure as /dev/random but non-blocking #define CONFIGFILE FLASHDIR "/startup-config" // Configuration file #define CLIUSERS FLASHDIR "/users" // CLI Users file #define IPPOOLFILE FLASHDIR "/ip_pool" // Address pool configuration #define ACCT_TIME 3000 // 5 minute accounting interval #define ACCT_SHUT_TIME 600 // 1 minute for counters of shutdown sessions #define L2TPPORT 1701 // L2TP port #define RADPORT 1645 // old radius port... #define DAEPORT 3799 // DAE port #define PKTARP 0x0806 // ARP packet type #define PKTIP 0x0800 // IPv4 packet type #define PKTIPV6 0x86DD // IPv6 packet type #define PPPPAP 0xC023 #define PPPCHAP 0xC223 #define PPPLCP 0xC021 #define PPPIPCP 0x8021 #define PPPIPV6CP 0x8057 #define PPPCCP 0x80FD #define PPPIP 0x0021 #define PPPIPV6 0x0057 #define PPPMP 0x003D #define MIN_IP_SIZE 0x19 enum { ConfigReq = 1, ConfigAck, ConfigNak, ConfigRej, TerminateReq, TerminateAck, CodeRej, ProtocolRej, EchoReq, EchoReply, DiscardRequest, IdentRequest }; enum { AccessRequest = 1, AccessAccept, AccessReject, AccountingRequest, AccountingResponse, AccessChallenge = 11, DisconnectRequest = 40, DisconnectACK, DisconnectNAK, CoARequest, CoAACK, CoANAK }; // PPP phases enum { Dead, Establish, Authenticate, Network, Terminate }; // PPP states enum { Initial, Starting, Closed, Stopped, Closing, Stopping, RequestSent, AckReceived, AckSent, Opened }; // reset state machine counters #define initialise_restart_count(_s, _fsm) \ sess_local[_s]._fsm.conf_sent = \ sess_local[_s]._fsm.nak_sent = 0 // no more attempts #define zero_restart_count(_s, _fsm) ({ \ sess_local[_s]._fsm.conf_sent = \ config->ppp_max_configure; \ sess_local[_s]._fsm.restart = \ time_now + config->ppp_restart_time; \ }) // increment ConfReq counter and reset timer #define restart_timer(_s, _fsm) ({ \ sess_local[_s]._fsm.conf_sent++; \ sess_local[_s]._fsm.restart = \ time_now + config->ppp_restart_time; \ }) // stop timer on change to state where timer does not run #define change_state(_s, _fsm, _new) ({ \ if (_new != session[_s].ppp._fsm) \ { \ switch (_new) \ { \ case Initial: \ case Starting: \ case Closed: \ case Stopped: \ case Opened: \ sess_local[_s]._fsm.restart = 0; \ initialise_restart_count(_s, _fsm); \ } \ session[_s].ppp._fsm = _new; \ cluster_send_session(_s); \ } \ }) // Types typedef uint16_t sessionidt; typedef uint16_t bundleidt; typedef uint16_t tunnelidt; typedef uint32_t clockt; typedef uint8_t hasht[16]; // CLI actions struct cli_session_actions { char action; in_addr_t snoop_ip; uint16_t snoop_port; int throttle_in; int throttle_out; int filter_in; int filter_out; }; #define CLI_SESS_KILL 0x01 #define CLI_SESS_SNOOP 0x02 #define CLI_SESS_NOSNOOP 0x04 #define CLI_SESS_THROTTLE 0x08 #define CLI_SESS_NOTHROTTLE 0x10 #define CLI_SESS_FILTER 0x20 #define CLI_SESS_NOFILTER 0x40 struct cli_tunnel_actions { char action; }; #define CLI_TUN_KILL 0x01 // structures typedef struct // route { in_addr_t ip; int prefixlen; } routet; typedef struct controls // control message { struct controls *next; // next in queue uint16_t length; // length union { uint8_t buf[MAXCONTROL]; uint16_t buf16[MAXCONTROL/2]; } __attribute__ ((__transparent_union__)); } controlt; typedef struct { uint8_t length; // Endpoint Discriminator length uint8_t addr_class; // Endpoint Discriminator class uint8_t address[MAXADDRESS]; // Endpoint Discriminator address } epdist; typedef struct { sessionidt sid; // Fragment originating session tunnelidt tid; // Fragment originating tunnel uint8_t flags; // MP frame flags uint32_t seq; // fragment seq num uint32_t jitteravg; uint16_t length; // Fragment length uint8_t data[MAXFRAGLEN]; // Fragment data } fragmentt; typedef struct { sessionidt next; // next session in linked list sessionidt far; // far end session ID tunnelidt tunnel; // near end tunnel ID uint8_t flags; // session flags: see SESSION_* struct { uint8_t phase; // PPP phase uint8_t lcp:4; // LCP state uint8_t ipcp:4; // IPCP state uint8_t ipv6cp:4; // IPV6CP state uint8_t ccp:4; // CCP state } ppp; uint16_t mru; // maximum receive unit in_addr_t ip; // IP of session set by RADIUS response (host byte order). int ip_pool_index; // index to IP pool uint32_t unique_id; // unique session id uint32_t magic; // ppp magic number uint32_t pin, pout; // packet counts uint32_t cin, cout; // byte counts uint32_t cin_wrap, cout_wrap; // byte counter wrap count (RADIUS accounting giagawords) uint32_t cin_delta, cout_delta; // byte count changes (for dump_session()) uint16_t throttle_in; // upstream throttle rate (kbps) uint16_t throttle_out; // downstream throttle rate uint8_t filter_in; // input filter index (to ip_filters[N-1]; 0 if none) uint8_t filter_out; // output filter index uint16_t snoop_port; // Interception destination port in_addr_t snoop_ip; // Interception destination IP clockt opened; // when started clockt die; // being closed, when to finally free uint32_t session_timeout; // Maximum session time in seconds uint32_t idle_timeout; // Maximum idle time in seconds time_t last_packet; // Last packet from the user (used for idle timeouts) time_t last_data; // Last data packet to/from the user (used for idle timeouts) in_addr_t dns1, dns2; // DNS servers routet route[MAXROUTE]; // static routes uint16_t tbf_in; // filter bucket for throttling in from the user. uint16_t tbf_out; // filter bucket for throttling out to the user. int random_vector_length; uint8_t random_vector[MAXTEL]; char user[MAXUSER]; // user (needed in session for radius stop messages) char called[MAXTEL]; // called number char calling[MAXTEL]; // calling number uint32_t tx_connect_speed; uint32_t rx_connect_speed; clockt timeout; // Session timeout uint32_t mrru; // Multilink Max-Receive-Reconstructed-Unit epdist epdis; // Multilink Endpoint Discriminator bundleidt bundle; // Multilink Bundle Identifier uint8_t mssf; // Multilink Short Sequence Number Header Format uint8_t walled_garden; // is this session gardened? uint8_t classlen; // class (needed for radius accounting messages) char class[MAXCLASS]; uint8_t ipv6prefixlen; // IPv6 route prefix length struct in6_addr ipv6route; // Static IPv6 route #ifdef LAC sessionidt forwardtosession; // LNS id_session to forward char reserved[10]; // Space to expand structure without changing HB_VERSION #else char reserved[12]; // Space to expand structure without changing HB_VERSION #endif } sessiont; typedef struct { int state; // current state (bundlestate enum) uint32_t seq_num_t; // Sequence Number (transmission) uint32_t timeout; // Session-Timeout for bundle uint32_t max_seq; // Max value of sequence number field uint8_t num_of_links; // Number of links joint to this bundle uint32_t online_time; // The time this bundle is online clockt last_check; // Last time the timeout is checked uint32_t mrru; // Multilink Max-Receive-Reconstructed-Unit uint8_t mssf; // Multilink Short Sequence Number Header Format epdist epdis; // Multilink Endpoint Discriminator char user[MAXUSER]; // Needed for matching member links sessionidt current_ses; // Current session to use for sending (used in RR load-balancing) sessionidt members[MAXBUNDLESES]; // Array for member links sessions } bundlet; typedef struct { fragmentt fragment[MAXFRAGNUM]; uint8_t reassembled_frame[MAXETHER]; // The reassembled frame uint16_t re_frame_len; // The reassembled frame length uint16_t re_frame_begin_index, re_frame_end_index; // reassembled frame begin index, end index respectively uint16_t start_index, end_index; // start and end sequence numbers available on the fragments array respectively uint32_t M; // Minumum frame sequence number received over all bundle members uint32_t start_seq; // Last received frame sequence number (bearing B bit) } fragmentationt; #define AUTHPAP 1 // allow PAP #define AUTHCHAP 2 // allow CHAP typedef struct { // packet counters uint32_t pin; uint32_t pout; // byte counters uint32_t cin; uint32_t cout; // PPP restart timer/counters struct { time_t restart; int conf_sent; int nak_sent; } lcp, ipcp, ipv6cp, ccp; // identifier for Protocol-Reject, Code-Reject uint8_t lcp_ident; // authentication to use int lcp_authtype; // our MRU uint16_t ppp_mru; // our MRRU uint16_t mp_mrru; // our mssf uint16_t mp_mssf; // our Endpoint Discriminator in_addr_t mp_epdis; // DoS prevention clockt last_packet_out; uint32_t packets_out; uint32_t packets_dropped; // RADIUS session in use uint16_t radius; // interim RADIUS time_t last_interim; // last LCP Echo time_t last_echo; // Last Multilink frame sequence number received uint32_t last_seq; // jitter average of the session uint32_t jitteravg; // time in milliseconds of the last fragment. uint64_t prev_time; } sessionlocalt; // session flags #define SESSION_PFC (1 << 0) // use Protocol-Field-Compression #define SESSION_ACFC (1 << 1) // use Address-and-Control-Field-Compression #define SESSION_STARTED (1 << 2) // RADIUS Start record sent // 168 bytes per tunnel typedef struct { tunnelidt far; // far end tunnel ID in_addr_t ip; // Ip for far end uint16_t port; // port for far end uint16_t window; // Rx window uint16_t nr; // next receive uint16_t ns; // next send int state; // current state (tunnelstate enum) clockt last; // when last control message sent (used for resend timeout) clockt retry; // when to try resending pending control clockt die; // being closed, when to finally free clockt lastrec; // when the last control message was received char hostname[128]; // tunnel hostname char vendor[128]; // LAC vendor uint8_t try; // number of retrys on a control message uint16_t controlc; // outstaind messages in queue controlt *controls; // oldest message controlt *controle; // newest message } tunnelt; // 164 bytes per radius session typedef struct // outstanding RADIUS requests { sessionidt session; // which session this applies to hasht auth; // request authenticator clockt retry; // when to try next char pass[129]; // password uint8_t id; // ID for PPP response uint8_t try; // which try we are on uint8_t state; // state of radius requests uint8_t chap; // set if CHAP used (is CHAP identifier) uint8_t term_cause; // Stop record: Acct-Terminate-Cause char const *term_msg; // terminate reason } radiust; typedef struct { in_addr_t address; // Host byte order.. char assigned; // 1 if assigned, 0 if free sessionidt session; clockt last; // last used char user[129]; // user (try to have ip addresses persistent) } ippoolt; #ifdef RINGBUFFER struct Tringbuffer { struct { char level; sessionidt session; tunnelidt tunnel; char message[MAX_LOG_LENGTH]; } buffer[RINGBUFFER_SIZE]; int head; int tail; }; #endif /* * Possible tunnel states * TUNNELFREE -> TUNNELOPEN -> TUNNELDIE -> TUNNELFREE */ enum { TUNNELFREE, // Not in use TUNNELOPEN, // Active tunnel TUNNELDIE, // Currently closing TUNNELOPENING, // Busy opening TUNNELUNDEF, // Undefined }; enum { BUNDLEFREE, // Not in use BUNDLEOPEN, // Active bundle BUNDLEUNDEF, // Undefined }; enum { NULLCLASS = 0, //End Point Discriminator classes LOCALADDR, IPADDR, IEEEMACADDR, PPPMAGIC, PSNDN, }; enum { RADIUSNULL, // Not in use RADIUSCHAP, // sending CHAP down PPP RADIUSAUTH, // sending auth to RADIUS server RADIUSSTART, // sending start accounting to RADIUS server RADIUSSTOP, // sending stop accounting to RADIUS server RADIUSINTERIM, // sending interim accounting to RADIUS server RADIUSWAIT, // waiting timeout before available, in case delayed replies RADIUSJUSTAUTH, // sending auth to RADIUS server, just authentication, no ip assigning }; struct Tstats { time_t start_time; time_t last_reset; uint32_t tun_rx_packets; uint32_t tun_tx_packets; uint32_t tun_rx_bytes; uint32_t tun_tx_bytes; uint32_t tun_rx_errors; uint32_t tun_tx_errors; uint32_t tun_rx_dropped; uint32_t tunnel_rx_packets; uint32_t tunnel_tx_packets; uint32_t tunnel_rx_bytes; uint32_t tunnel_tx_bytes; uint32_t tunnel_rx_errors; uint32_t tunnel_tx_errors; uint32_t tunnel_retries; uint32_t radius_retries; uint32_t arp_sent; uint32_t packets_snooped; uint32_t tunnel_created; uint32_t session_created; uint32_t tunnel_timeout; uint32_t session_timeout; uint32_t radius_timeout; uint32_t radius_overflow; uint32_t tunnel_overflow; uint32_t session_overflow; uint32_t ip_allocated; uint32_t ip_freed; uint32_t c_forwarded; uint32_t recv_forward; uint32_t select_called; uint32_t multi_read_used; uint32_t multi_read_exceeded; #ifdef STATISTICS uint32_t call_processtun; uint32_t call_processipout; uint32_t call_processipv6out; uint32_t call_processudp; uint32_t call_sessionbyip; uint32_t call_sessionbyipv6; uint32_t call_sessionbyuser; uint32_t call_sendarp; uint32_t call_sendipcp; uint32_t call_sendipv6cp; uint32_t call_processipv6cp; uint32_t call_tunnelsend; uint32_t call_sessionkill; uint32_t call_sessionshutdown; uint32_t call_tunnelkill; uint32_t call_tunnelshutdown; uint32_t call_assign_ip_address; uint32_t call_free_ip_address; uint32_t call_dump_acct_info; uint32_t call_sessionsetup; uint32_t call_processpap; uint32_t call_processchap; uint32_t call_processlcp; uint32_t call_processipcp; uint32_t call_processipin; uint32_t call_processipv6in; uint32_t call_processccp; uint32_t call_sendchap; uint32_t call_processrad; uint32_t call_radiussend; uint32_t call_radiusretry; uint32_t call_random_data; #endif }; #ifdef STATISTICS #ifdef STAT_CALLS #define CSTAT(x) STAT(call_ ## x) #else #define CSTAT(x) #endif #define STAT(x) (_statistics->x++) #define INC_STAT(x,y) (_statistics->x += (y)) #define GET_STAT(x) (_statistics->x) #define SET_STAT(x, y) (_statistics->x = (y)) #else #define CSTAT(x) #define STAT(x) #define INC_STAT(x,y) #define GET_STAT(x) 0 #define SET_STAT(x, y) #endif #ifndef IFNAMSIZ # define IFNAMSIZ 16 #endif typedef struct { int debug; // debugging level time_t start_time; // time when l2tpns was started char bandwidth[256]; // current bandwidth char pid_file[256]; // file to write PID to on startup int wrote_pid; clockt current_time; // 1/10ths of a second since the process started. // means that we can only run a given process // for 13 years without re-starting! char config_file[128]; int reload_config; // flag to re-read config (set by cli) int multi_read_count; // amount of packets to read per fd in processing loop char tundevice[IFNAMSIZ]; // tun device name char log_filename[128]; char l2tp_secret[64]; // L2TP shared secret int l2tp_mtu; // MTU of interface used for L2TP char random_device[256]; // random device path, defaults to RANDOMDEVICE int ppp_restart_time; // timeout for PPP restart int ppp_max_configure; // max lcp configure requests to send int ppp_max_failure; // max lcp configure naks to send char radiussecret[64]; int radius_accounting; int radius_interim; in_addr_t radiusserver[MAXRADSERVER]; // radius servers uint16_t radiusport[MAXRADSERVER]; // radius base ports uint8_t numradiusservers; // radius server count uint16_t radius_dae_port; // port for radius DAE uint16_t radius_bind_min; // port range for udp sockets used to send/recv radius packets uint16_t radius_bind_max; char radius_authtypes_s[32]; // list of valid authentication types (chap, pap) in order of preference int radius_authtypes; int radius_authprefer; int allow_duplicate_users; // allow multiple logins with the same username int kill_timedout_sessions; // kill authenticated sessions with "session_timeout == 0" in_addr_t default_dns1, default_dns2; unsigned long rl_rate; // default throttle rate int num_tbfs; // number of throttle buckets char accounting_dir[128]; in_addr_t bind_address; in_addr_t peer_address; int send_garp; // Set to true to garp for vip address on startup int dump_speed; char plugins[64][MAXPLUGINS]; char old_plugins[64][MAXPLUGINS]; int next_tbf; // Next HTB id available to use int scheduler_fifo; // If the system has multiple CPUs, use FIFO scheduling // policy for this process. int lock_pages; // Lock pages into memory. int icmp_rate; // Max number of ICMP unreachable per second to send int max_packets; // DoS prevention: per session limit of packets/0.1s char epdis_addr[20]; // MP Endpoint Discriminator address in_addr_t cluster_address; // Multicast address of cluster. // Send to this address to have everyone hear. char cluster_interface[64]; // Which interface to listen for multicast on. int cluster_iam_master; // Are we the cluster master??? int cluster_iam_uptodate; // Set if we've got a full set of state from the master. in_addr_t cluster_master_address; // The network address of the cluster master. // Zero if i am the cluster master. int cluster_seq_number; // Sequence number of the next heartbeat we'll send out // (or the seq number we're next expecting if we're a slave). int cluster_undefined_sessions; // How many sessions we're yet to receive from the master. int cluster_undefined_bundles; // How many bundles we're yet to receive from the master. int cluster_undefined_tunnels; // How many tunnels we're yet to receive from the master. int cluster_highest_sessionid; int cluster_highest_bundleid; int cluster_highest_tunnelid; clockt cluster_last_hb; // Last time we saw a heartbeat from the master. int cluster_last_hb_ver; // Heartbeat version last seen from master int cluster_num_changes; // Number of changes queued. int cluster_mcast_ttl; // TTL for multicast packets int cluster_hb_interval; // How often to send a heartbeat. int cluster_hb_timeout; // How many missed heartbeats trigger an election. uint64_t cluster_table_version; // # state changes processed by cluster struct in6_addr ipv6_prefix; // Our IPv6 network pool. int cluster_master_min_adv; // Master advertises routes while the number of up to date // slaves is less than this value. in_addr_t cli_bind_address; // bind address for CLI char hostname[MAXHOSTNAME]; // hostname (overridden by -h on command line) // Guest change char guest_user[MAXUSER]; // Guest account username #ifdef BGP #define BGP_NUM_PEERS 2 uint16_t as_number; struct { char name[64]; uint16_t as; int keepalive; int hold; struct in_addr update_source; } neighbour[BGP_NUM_PEERS]; in_addr_t nexthop_address; struct in6_addr nexthop6_address; #endif int echo_timeout; // Time between last packet sent and LCP ECHO generation int idle_echo_timeout; // Time between last packet seen and // Drop sessions who have not responded within IDLE_ECHO_TIMEOUT seconds #ifdef LAC int highest_rlnsid; #endif } configt; enum config_typet { INT, STRING, UNSIGNED_LONG, SHORT, BOOL, IPv4, IPv6 }; typedef struct { char *key; int offset; int size; enum config_typet type; } config_descriptt; typedef struct { uint8_t op; // operation #define FILTER_PORT_OP_NONE 0 // all ports match #define FILTER_PORT_OP_EQ 1 #define FILTER_PORT_OP_NEQ 2 #define FILTER_PORT_OP_GT 3 #define FILTER_PORT_OP_LT 4 #define FILTER_PORT_OP_RANGE 5 uint16_t port; // port (host byte order) uint16_t port2; // range } ip_filter_portt; typedef struct { int action; // permit/deny #define FILTER_ACTION_DENY 1 #define FILTER_ACTION_PERMIT 2 uint8_t proto; // protocol: IPPROTO_* (netinet/in.h) in_addr_t src_ip; // source ip (network byte order) in_addr_t src_wild; ip_filter_portt src_ports; in_addr_t dst_ip; // dest ip in_addr_t dst_wild; ip_filter_portt dst_ports; uint8_t frag; // apply to non-initial fragments uint8_t tcp_flag_op; // match type: any, all, established #define FILTER_FLAG_OP_ANY 1 #define FILTER_FLAG_OP_ALL 2 #define FILTER_FLAG_OP_EST 3 uint8_t tcp_sflags; // flags set uint8_t tcp_cflags; // flags clear uint32_t counter; // match count } ip_filter_rulet; #define TCP_FLAG_FIN 0x01 #define TCP_FLAG_SYN 0x02 #define TCP_FLAG_RST 0x04 #define TCP_FLAG_PSH 0x08 #define TCP_FLAG_ACK 0x10 #define TCP_FLAG_URG 0x20 #define MAXFILTER 32 #define MAXFILTER_RULES 32 typedef struct { char name[32]; // ACL name int extended; // type: 0 = standard, 1 = extended ip_filter_rulet rules[MAXFILTER_RULES]; int used; // session ref count } ip_filtert; // CDN result/error codes #define CDN_NONE 0, 0 #define CDN_TRY_ANOTHER 2, 7 #define CDN_ADMIN_DISC 3, 0 #define CDN_UNAVAILABLE 4, 0 // RADIUS Acct-Terminate-Cause values #define TERM_USER_REQUEST 1 #define TERM_LOST_CARRIER 2 #define TERM_LOST_SERVICE 3 #define TERM_IDLE_TIMEOUT 4 #define TERM_SESSION_TIMEOUT 5 #define TERM_ADMIN_RESET 6 #define TERM_ADMIN_REBOOT 7 #define TERM_PORT_ERROR 8 #define TERM_NAS_ERROR 9 #define TERM_NAS_REQUEST 10 #define TERM_NAS_REBOOT 11 #define TERM_PORT_UNNEEDED 12 #define TERM_PORT_PREEMPTED 13 #define TERM_PORT_SUSPENDED 14 #define TERM_SERVICE_UNAVAILABLE 15 #define TERM_CALLBACK 16 #define TERM_USER_ERROR 17 #define TERM_HOST_REQUEST 18 #define TERM_SUPPLICANT_RESTART 19 #define TERM_REAUTHENTICATION_FAILURE 20 #define TERM_PORT_REINIT 21 #define TERM_PORT_DISABLED 22 // on slaves, alow BGP to withdraw cleanly before exiting #define QUIT_DELAY 5 // quit actions (master) #define QUIT_FAILOVER 1 // SIGTERM: exit when all control messages have been acked (for cluster failover) #define QUIT_SHUTDOWN 2 // SIGQUIT: shutdown sessions/tunnels, reject new connections // arp.c void sendarp(int ifr_idx, const unsigned char* mac, in_addr_t ip); // ppp.c void processpap(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processchap(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void lcp_open(sessionidt s, tunnelidt t); void processlcp(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processipcp(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processipv6cp(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processipin(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processmpin(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processmpframe(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l, uint8_t extra); void processipv6in(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void processccp(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l); void sendchap(sessionidt s, tunnelidt t); uint8_t *makeppp(uint8_t *b, int size, uint8_t *p, int l, sessionidt s, tunnelidt t, uint16_t mtype, uint8_t prio, bundleidt bid, uint8_t mp_bits); void sendlcp(sessionidt s, tunnelidt t); void send_ipin(sessionidt s, uint8_t *buf, int len); void sendccp(sessionidt s, tunnelidt t); void protoreject(sessionidt s, tunnelidt t, uint8_t *p, uint16_t l, uint16_t proto); int join_bundle(sessionidt s); // radius.c void initrad(void); void radiussend(uint16_t r, uint8_t state); void processrad(uint8_t *buf, int len, char socket_index); void radiusretry(uint16_t r); uint16_t radiusnew(sessionidt s); void radiusclear(uint16_t r, sessionidt s); void processdae(uint8_t *buf, int len, struct sockaddr_in *addr, int alen, struct in_addr *local); // l2tpns.c clockt backoff(uint8_t try); void send_ipv6_ra(sessionidt s, tunnelidt t, struct in6_addr *ip); void route6set(sessionidt s, struct in6_addr ip, int prefixlen, int add); sessionidt sessionbyip(in_addr_t ip); sessionidt sessionbyipv6(struct in6_addr ip); sessionidt sessionbyuser(char *username); void increment_counter(uint32_t *counter, uint32_t *wrap, uint32_t delta); void random_data(uint8_t *buf, int len); void sessionkill(sessionidt s, char *reason); void sessionshutdown(sessionidt s, char const *reason, int cdn_result, int cdn_error, int term_cause); void filter_session(sessionidt s, int filter_in, int filter_out); void send_garp(in_addr_t ip); void tunnelsend(uint8_t *buf, uint16_t l, tunnelidt t); int tun_write(uint8_t *data, int size); void adjust_tcp_mss(sessionidt s, tunnelidt t, uint8_t *buf, int len, uint8_t *tcp); void sendipcp(sessionidt s, tunnelidt t); void sendipv6cp(sessionidt s, tunnelidt t); void processudp(uint8_t *buf, int len, struct sockaddr_in *addr); void processipout(uint8_t *buf, int len); void snoop_send_packet(uint8_t *packet, uint16_t size, in_addr_t destination, uint16_t port); int find_filter(char const *name, size_t len); int ip_filter(uint8_t *buf, int len, uint8_t filter); int cmd_show_ipcache(struct cli_def *cli, char *command, char **argv, int argc); int cmd_show_hist_idle(struct cli_def *cli, char *command, char **argv, int argc); int cmd_show_hist_open(struct cli_def *cli, char *command, char **argv, int argc); #ifdef LAC tunnelidt lac_new_tunnel(); void lac_tunnelclear(tunnelidt t); void lac_send_SCCRQ(tunnelidt t, uint8_t * auth, unsigned int auth_len); void lac_send_ICRQ(tunnelidt t, sessionidt s); void lac_tunnelshutdown(tunnelidt t, char *reason, int result, int error, char *msg); #endif #undef LOG #undef LOG_HEX #define LOG(D, s, t, f, ...) ({ if (D <= config->debug) _log(D, s, t, f, ## __VA_ARGS__); }) #define LOG_HEX(D, t, d, s) ({ if (D <= config->debug) _log_hex(D, t, d, s); }) void _log(int level, sessionidt s, tunnelidt t, const char *format, ...) __attribute__((format (printf, 4, 5))); void _log_hex(int level, const char *title, const uint8_t *data, int maxsize); int sessionsetup(sessionidt s, tunnelidt t); int run_plugins(int plugin_type, void *data); void rebuild_address_pool(void); void throttle_session(sessionidt s, int rate_in, int rate_out); int load_session(sessionidt, sessiont *); void become_master(void); // We're the master; kick off any required master initializations. // cli.c void init_cli(); void cli_init_complete(char *hostname); void cli_do_file(FILE *fh); void cli_do(int sockfd); int cli_arg_help(struct cli_def *cli, int cr_ok, char *entry, ...); // icmp.c void host_unreachable(in_addr_t destination, uint16_t id, in_addr_t source, uint8_t *packet, int packet_len); extern tunnelt *tunnel; extern bundlet *bundle; extern sessiont *session; extern sessionlocalt *sess_local; extern ippoolt *ip_address_pool; #define sessionfree (session[0].next) extern configt *config; extern time_t basetime; // Time when this process started. extern time_t time_now; // Seconds since EPOCH. extern char main_quit; extern uint32_t last_id; extern struct Tstats *_statistics; extern in_addr_t my_address; extern int clifd; extern int epollfd; struct event_data { enum { FD_TYPE_CLI, FD_TYPE_CLUSTER, FD_TYPE_TUN, FD_TYPE_UDP, FD_TYPE_CONTROL, FD_TYPE_DAE, FD_TYPE_RADIUS, FD_TYPE_BGP, FD_TYPE_NETLINK, } type; int index; // for RADIUS, BGP }; #define TIME (config->current_time) extern uint16_t MRU; extern uint16_t MSS; // macros for handling help in cli commands #define CLI_HELP_REQUESTED (argc > 0 && argv[argc-1][strlen(argv[argc-1])-1] == '?') #define CLI_HELP_NO_ARGS (argc > 1 || argv[0][1]) ? CLI_OK : cli_arg_help(cli, 1, NULL) #endif /* __L2TPNS_H__ */